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Description:
Phage RNA polymerases are widely used for the in vitro synthesis of RNA transcripts from DNA templates which have a double-stranded promoter (at least 19 bases) upstream of the sequence to be transcribed. T7 phage RNA polymerase has a high specificity for its respective promoter. Once T7 RNA polymerase binds to its double-stranded DNA promoter, it separates the two DNA strands, and uses the 3' to 5' strand as a template to synthesize a complementary strand at the end of the DNA template (run-off transcription) (Figure 1). The initiation of transcription is a rate-limiting step in in vitro transcript reactions. Elongation of the transcript is very fast and efficient.
Cloning vectors usually contain two or more separate phage promoters flanking a multiple cloning site. So either strand of the template can be transcribed from the promoter on the opposite strand. The T7 High Yield in vitro Transcription Kit can also be used to transcribe from DNA templates produced via PCR or synthetic DNA oligonucleotides.
Because RNA-RNA and RNA-DNA hybrids are more stable than DNA-DNA duplexes in solid base hybridizations, and single-stranded RNA probes are not depleted by rehybridization to a complementary probe strand, the T7 High Yield in vitro Transcription Kit can be used to incorporate isotopically labeled as well as nonisotopically modified nucleotides into RNA transcripts as probes for hybridization reactions, such as Northern and Southern blotting, slot or dot blotting, in situ hybridizations, and nuclease protection assays. If the RNA produced will be used as a probe to detect mRNA, it is important that mRNA-complementary (antisense) transcripts are synthesized. With custom supplied cap analog(not included in the kit), fully functional capped mRNAs can be made through T7 High Yield in vitro Transcription reactions.
Application:
- In vitro transcription
- In vitro translation
- Hybridization probes generation
- RNase protection assays
- RNA binding protein assays
- RNAi study
Reference:
Schendorn ET and Mierindorf RC (1985). Nucleic Acids Res, 13,6223-6236
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